CROSS-REFERENCE TO RELATED APPLICATIONS
Applicant claims the benefit of U.S. provisional patent application 60/674,600, filed Apr. 25, 2005.
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to steering and propulsion systems for wheeled movable toy vehicles.
2. Description of Prior Art
Inexpensive toy vehicles for young children are made to be pushed and dragged along the floor by hand or at the end of a cord or a stick with no sense of control or direction. Riding toys such as tricycles and pedal-powered vehicles with car bodies are more expensive, bulky, and hazardous for young children than are the types of pre-riding vehicles addressed by this invention. Radio-controlled toy vehicles provide control, but are expensive and too advanced for small children, and are too passive. They provide no exercise, and steering is done with buttons and levers, which is not similar to steering a car, so it does not provide training for steering a car.
Prior U.S patents disclose various mechanisms for steering the front wheels of a toy vehicle. These include U.S. Pat. No. 4,595,380 (Magers), U.S. Pat. No. 5,240,451 (Clark), U.S. Pat. No. 5,584,743 (Beaulieu), and U.S. Pat. No. 6,272,946 (Roux). These mechanisms are sometimes fragile, intricate, and complex, with many interlocking rigid parts. This makes them expensive to manufacture, unreliable, impractical to adjust and maintain. What is needed for commercial success is simplicity, practicality, sturdiness, and low production cost.
SUMMARY OF THE INVENTION
A movable steerable toy vehicle for young children should be inexpensive and safe, but give a sense of control. Ideally, it should interest and occupy the child, improve steering coordination relevant to car driving, and promote exercise. The present invention provides all of these benefits in a wheeled toy vehicle with steering wheel that extends upward and backward from the vehicle on a long steering column to the waist level on a child walking behind the vehicle. The child propels the vehicle by pushing the steering wheel, and steers the vehicle by turning the steering wheel. The child has a view of the vehicle that shows how vehicles respond to steering as in driving and parking a car. The child gets walking exercise during use of the toy vehicle. The steering column has a universal joint, so the angle of the steering column from the vehicle is flexible. This allows the vehicle to turn left or right of the child without dragging. The steering mechanism is especially simple, allowing low cost and high reliability.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side view of a movable toy vehicle partly in section, with a steering mechanism according to an aspect of the invention;
FIG. 2 is a partial bottom view of FIG. 1.
FIG. 3 is a partial side view as in FIG. 1 with an added linkage protection box.
FIG. 4 is a partial bottom view as in FIG. 2 with an added linkage protection box.
FIG. 5 is a side view of a second aspect of the invention using a pair of bevel gears in the steering linkage.
FIG. 6 is a partial bottom view of FIG. 5.
REFERENCE CHARACTERS
- 30. Movable toy vehicle chassis
- 32. Horizontal chassis bottom member
- 34. Vertical chassis member
- 36. Front wheel
- 38. Steerable front wheel frame
- 40. Pivot axle of wheel frame
- 42. Back wheel
- 50. Steering column
- 52. Upper end of steering column
- 54. Steering wheel
- 56. Locking collar for extension of steering column
- 58. Lower end of steering column
- 60. Helical spring as flexible joint in steering column
- 61. Universal joint
- 62. Upper retainer flange of steering column
- 64. Journal plate for steering column
- 65. Journal wedge for steering column
- 66. Annular groove in steering column
- 68. Retainer pin of steering column
- 70. Steering linkage cable or cord
- 72. Attachment of end of linkage cord to steering frame
- 76. Hole in bottom of steering column for cable
- 78. Setscrew for locking cable in steering column
- 80. Hole in horizontal chassis element for steering column
- 82. Protective box
- 84. Linkage cable port in protective box
- 86. Hole in bottom of protective box for lower end of steering column
- 88. Bevel gear on lower end of steering column
- 90. Bevel gear on bottom of chassis
- 92. Cylinder on bevel gear on chassis
- 94. Vertically offset channel through cylinder on bevel gear
- 96. Setscrew in bottom of cylinder on bevel gear
DETAILED DESCRIPTION
A preferred aspect of the invention is shown in FIGS. 1 and 2, in which a toy vehicle 30 has a chassis with horizontal bottom member 32, a vertical intermediate member 34, and front wheels 36 mounted on a steering frame 38 that pivots on a central vertical axis 40. A steering column 50 has an upper end 52 with a steering wheel 54, and a lower end 58 with a steering linkage 70. The steering column preferably has telescoping sections with locking collars 56 or other known extendable tube locking devices. This feature can be used to adjust the steering wheel height for different sized users and to retract or disassemble the steering column for storage.
The lower end 58 of the steering column passes obliquely through a hole 80 in the bottom member 32 of the chassis, and is journaled in a hole in journal plate 64 that spans diagonally between the bottom member 32 and an intermediate vertical member 34 on the chassis. The journal may have a sealed ring of ball bearings or other known bearing and retaining device. However, a preferred inexpensive journal mechanism comprises a flange 62 fixed to the steering column and resting on the journal plate, and an annular groove 66 just below the journal plate that is retained against the bottom of the journal plate with pins 68. The holes in the journal plate and the bottom member for the bottom end of the steering column preferably have minimal free-turning clearance around the steering column to hold the steering column steady. The retention mechanism 62, 66, 68 allows it to turn freely. The journal plate may be in the form of a solid wedge 65 as shown in FIG. 5. In this case, the pins 68 pass through lateral holes in the wedge, and a flange 62 is not needed. However, a flange 62 is still recommended in this embodiment. A preferred angle of the steering column is in the range of 30 to 40 degrees from vertical leaning backward.
The steering column preferably has a pivot device such as a universal joint 61 or a helical spring 60 just above the journal. This allows the steering column to pivot in any direction as a child walks behind the toy. The child holds the steering wheel at waist level and propels the toy forward or backward by pushing or pulling against the steering wheel while steering it left and right. A helical spring is a preferred embodiment because it is thought to be less expensive than a universal joint. The upper and lower parts of the steering column may have reduced rounded ends that are inserted tightly a short distance into the respective upper and lower ends of the helical spring. It is suggested that the vehicle chassis may be weighted to avoid tipping from lateral force on the lower end of the steering column when the vehicle is turning.
The two front wheels 36 of the vehicle are attached to a steering frame 38. The steering frame is pivotally mounted 40 at its center to the bottom of the vehicle chassis on a vertical pivot axis. The two front wheels 36 are rotatably attached to the left and right ends of the steering frame. The front bumper of the vehicle can extend below the vehicle and act as a stop for the rotation of the steering frame.
A steering linkage cable or cord 70 links the bottom end of the steering column to the steering frame. This cord has a left span and a right span between the bottom end of the steering column and the respective left and right ends of the steering frame. These two spans may be separate lengths of cord attached to respective left and right sides of the bottom end of the steering column. Alternately, as shown in FIGS. 1 and 2, the two spans may be the left and right halves of a continuous cord that is fixed at its midpoint through a hole 76 in the column 68 by means of a setscrew 78. The cord exits the hole 76 on two opposite sides of the column, and from each exit it wraps around the back of the column, then spans to the nearest end of the steering frame. It is attached to the steering frame using a screw, hook, or a wedging groove on the steering frame. This linkage causes the steering frame to turn in the same direction as the steering wheel.
A protective box 82 may be provided over the lower end of the steering column below the vehicle chassis. It has ports 84 for the linkage cable 70. It may have a hole 86 in the bottom for the lower end of the steering column. This box protects the linkage mechanism, and prevents the cord from slipping off the lower end of the steering column. With such a box, the steering column can be angled up to about 40 degrees backward from vertical. Without a box, the preferable steering column angle is about 30 degrees backward from vertical. The box can be screwed to the bottom of the chassis, so it can be easily removed for linkage repair or adjustment.
FIGS. 5 and 6 show a second aspect of the invention using a first bevel gear 88 on the lower end of the steering linkage, a second bevel gear 90 on the bottom of the chassis, and a cylinder 92 on the second bevel gear. The linkage cord 70 is attached to the cylinder and crosses in front of it as shown. This crossing of the cord causes the steering frame to turn in the same direction as the steering wheel despite the reversed direction of the second bevel gear. In order to avoid rubbing of the cord against itself at the crossing point the left and right spans of the cord are vertically offset on the cylinder. This can be accomplished by means of a vertically offset channel 94 through the cylinder as shown. One end of this channel is higher than the other, so the left and right spans of the linkage cord cross each other without touching each other. A setscrew 96 in the bottom of the cylinder may be used to lock the middle of the cord in the channel. With this bevel gear mechanism, the steering column can be angled up to about 55 degrees backward from vertical. Optionally, the linkage cord can wrap around the back side of the cylinder before crossing in front, allowing a larger maximum turning angle of the steering frame.
Although the present invention has been described herein with respect to preferred embodiments, it will be understood that the foregoing description is intended to be illustrative, not restrictive. Modifications of the present invention will occur to those skilled in the art. All such modifications that fall within the scope of the appended claims are intended to be within the scope and spirit of the present invention.